tmxf28155 ETC-unknow, tmxf28155 Datasheet - Page 362

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tmxf28155

Manufacturer Part Number
tmxf28155
Description
Tmxf28155 Super Mapper 155/51 Mbits/s Sonet/sdh X28/x21 Ds1/e1
Manufacturer
ETC-unknow
Datasheet
1.TMXF28155.pdf (606 pages)

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TMXF28155/51 Super Mapper
Preliminary Data Sheet
155/51 Mbits/s SONET/SDH x28/x21 DS1/E1
May 2001
17 TMUX Functional Description
(continued)
17.3 TMUX Receive Path Overview
A detailed drawing of the TMUX receive path is provided in the bottom half of
Figure 24 on page366
. For the
receive path, the TMUX implements two serial inputs for both the work and protect streams of an MSP 1 + 1 net-
work interface. Synchronous data (SDH/SONET) framers are implemented to frame on the incoming receive data
streams. One or both may be employed depending on system architecture. The incoming traffic is converted from
serial to byte-wide parallel. The transport overhead bytes of the incoming traffic are monitored and dropped via the
receive path TOAC drop interface. A multiplexer implements the receive MSP 1 + 1 payload switch and only one of
the incoming streams is passed to the downstream processing blocks. The pointer interpreter passes pointer infor-
mation to the 1:3 demultiplexer logic, and bus control circuitry provides functions necessary to manage traffic on
the telecom bus drop interface which drops traffic from up to three STS-1/TUG-3 paths on the TMUX receive path.
The path overhead bytes are monitored by the path overhead monitor and are dropped via the receive path POAC
drop interface.
17.3.1 Receive Line Framer and Transport Overhead Termination
Input receive data is received at the TMUX synchronous data framer from the high-speed line interface block. The
framer performs a multitude of functions including frame alignment (STS-3/STM-1 or STS-1), B1 BIP-8 check,
J0 byte monitoring, descrambling, F1 byte monitoring, B2 BIP-8 check, automatic protection switch (APS) and K2
byte monitoring, AIS-L and RDI-L detection, M1 byte REI-L detection, S1 byte sync status monitoring, and receive
transport overhead access channel (RTOAC) drop. The states of the framer as well as all state changes are
reported, and, if not masked, cause an interrupt. The B1 and B2 byte parity check supports bit and block modes.
The TMUX implements internal performance monitor counters. These counters can count up to one second worth
of BIP errors. The counters operate in either a saturation mode, such that the maximum value is retained once
reached, or in a rollover mode. These counters should be optimally read (and cleared) at least once per second.
The J0 monitor supports non-framed, SONET-framed, and SDH-framed 16-byte sequences as well as single
J0 byte monitoring mode. APS monitoring is performed on bytes K1[7:0] and K2[7:3]. The value of each is stored
and changes are reported. Bits [2:0] of the K2 byte are monitored independently. Line AIS (AIS-L/MS-AIS) and
RDI-L/MS-RDI are monitored separately and changes are reported. This AIS-L/MS-AIS and RDI-L/MS-RDI infor-
mation is also sent to the protection device for add/drop multiplex (ADM) applications. The M1 byte monitor oper-
ates either in bit or block mode and allows access to the REI-L/MS-REI errored bit count. The S1 byte can be
monitored in two modes: as an entire 8-bit word or as one 4-bit nibble (bits 7 to 4). Continuous N-times detection
counters are implemented for these monitoring functions. All automatic receive monitoring functions can be config-
ured to provide an interrupt to the control system, or the device can be operated in a polled mode.
17.3.2 Receive Transport Overhead Monitor and RTOAC Drop
The receive RTOAC provides access to all of the line section overhead bytes. Even or odd parity is calculated over
all bytes. It has a data rate of 5.184 Mbits/s and consists of a clock, data, and an 8 kHz sync pulse. In an alternate
operating mode, the data communication channel bytes D1—D3 or D4—D12 may transmit a serial 192 kbits/s or a
576 kbits/s data stream onto the RTOAC drop channel.
rtoac clk
rtoac sync
rtoac data
0783(F)
Figure 21. TMUX RTOAC Timing Diagram
362
Agere Systems Inc.

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